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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RW cells are pancreatic endocrine RIN cells that have been stably transfected with a chimeric gene that places the expression of the dominant selection gpt gene under the control of the insulin gene regulatory sequences. These RW cells were examined for hormone content using immunocytochemistry. This analysis shows that: first, there are cells that are negative for insulin although they were cultured under selective pressure. Second, there is a higher proportion of somatostatin-producing cells than in the parental RIN cells; these somatostatin cells form two populations: one of cells containing only somatostatin and, surprisingly, one made of cells containing both insulin and somatostatin. Thus: (1) expression of the transfected and endogenous insulin regulatory sequences is not regulated in a coordinate fashion; (2) the presence of both hormones in the same cell suggests that the regulation of the expression of insulin and somatostatin genes and the differentiation pathway of the two respective cell types may be closely related.
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PMID:Co-expression of insulin and somatostatin genes in pancreatic endocrine cells selected for their high level of insulin gene transcription. 135 12

Oxyntomodulin (OXM), a glucagon-containing peptide extended at its C-terminal end by an octapeptide, is a potent inhibitor of gastric acid secretion in rat and man. OXM appears to act on gastric mucosa at least partially through a stimulation of gastric somatostatin release. We have investigated the effects of OXM on a somatostatin-secreting cell line (RIN T3) derived from a radiation-induced rat insulinoma and characterized specific binding sites for this peptide. OXM increased somatostatin release with an ED50 of 2.3 nM. OXM also stimulated the cAMP accumulation in intact RIN T3 cells and adenylate cyclase activity in RIN T3 cell membranes with ED50 values of 0.5 and 11 nM, respectively. On these parameters, glucagon was 10-30 times less potent than OXM. Forskolin, isobutylmethylxanthine, and 8-bromo-cAMP mimicked the effect of OXM on somatostatin release. Specific binding for mono-[125I]OXM was dependent upon time and membrane concentration. Binding of mono-[125I]OXM was inhibited by OXM and glucagon in a concentration-dependent manner, with dissociation constants (Kd) of 4.5 and 43 nM, respectively. The nonhydrolyzable analogs of GTP (guanosine 5',3-O-(thio)triphosphate and guanosine 5' (beta,gamma-imino)triphosphate decreased the binding of mono-[125I]OXM to its binding sites. Covalent cross-linking of mono-[125I]OXM or mono-[125I]glucagon to RIN T3 cell membranes followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis demonstrated a single radiolabeled band at 63,000 mol wt, which differed from that observed after cross-linking with liver plasma membranes (55,000 mol wt). These results demonstrate the presence of specific high affinity binding sites for OXM in a somatostatin-secreting cell line (RIN T3) and their coupling to adenylate cyclase via guanine nucleotide-binding proteins.
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PMID:Characterization of binding sites for oxyntomodulin on a somatostatin-secreting cell line (RIN T3). 137 46

Glucagon-like peptide-I(7-37) [(GLP-I(7-37)] is an intestinal peptide hormone that has potent insulinotropic activities in vivo in response to oral nutrients, in the isolated perfused pancreas, and in vitro in cultured B cells. GLP-I(7-37) receptor binding and GLP-I(7-37)-induced cAMP generation and hormone secretion was studied using cell lines producing insulin/B cell (beta TC-1), glucagon/A cell (INR1G9) and somatostatin/D cell (RIN 1027-B2). [125I]GLP-I(7-37) bound specifically to both B and D cells but not to A cells. GLP-I(7-37) induced cAMP-formation in B and D cells with a maximum response at 10 nmol/l (B cells) or at 100 nmol/l (D cells). Insulin secretion from perifused B cells was stimulated by GLP-I(7-37) (maximum at 10 nmol/l) and 10 nmol/l GLP-I(7-37) released somatostatin from perifused D cells. GLP-I(7-37) did not influence cAMP or glucagon secretion from A cells. These data indicate that pancreatic B and D cells, but not the A cells are influenced directly by GLP-I(7-37) via binding to specific receptors. Our findings support a model of physiologic regulation of insulin secretion whereby GLP-I(7-37) released from the intestine in response to oral nutrients potently stimulates insulin secretion via an endocrine mechanism that in turn may be dampened by a feed-back suppression by the release of somatostatin. In addition, suppression of the secretion of glucagon, a hormone whose actions are counter-regulatory to those of insulin, may occur by paracrine mechanisms involving GLP-I(7-37)-mediated stimulation of both insulin and somatostatin secretion.
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PMID:Functional receptors for the insulinotropic hormone glucagon-like peptide-I(7-37) on a somatostatin secreting cell line. 167 12

At present, only islet cell lines of animal origin have been successfully generated (e.g. RIN, HIT). A fully differentiated human beta cell line would be advantageous for diabetes research. We now report the generation of a human endocrine pancreatic cell line obtained by transfection using a plasmid containing the early region of SV40 viral DNA. Viral integration and transcription was assessed by Southern and Northern blotting. This cell line has been growing continuously for more than 2 years and maintains several of the characteristics of the parental cells from which they were generated. The presence of Neuron Specific Enolase, Protein Gene Product 9.5, cytokeratin, microvilli, cytoplasmic electrodense granules and the secretion of insulin, glucagon and somatostatin supports the neuroendocrine origin of this cell line. However, hormone production progressively decreased and finally stopped at passage 8. Flow cytometric analysis showed that HLA expression in this cell line is readily induced by IFN-gamma and modulated by TNF-alpha. The establishment of this human endocrine cell line indicates the feasibility of immortalizing human islets by transfection with viral oncogenes. To obtain a fully differentiated cell line it may be necessary to use other DNA constructs which immortalize the cells without fully transforming their phenotype.
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PMID:Transfection with SV40 gene of human pancreatic endocrine cells. 168 Mar 32

We have previously detected a sorting signal in the amino-terminal 78 residues of rat preprosomatostatin (rPPSS) that targets the precursor into a regulated secretory pathway or pathways allowing proteolytic maturation (Sevarino, K. A., Stork, P., Ventimiglia, R., Mandel, G., and Goodman, R. H. (1989) Cell 57, 11-19). To further localize this signal, we constructed three rPPSS expression vectors that code for substitutions or mutations spanning that portion of rPPSS implicated in sorting, and the precursors were expressed in RIN 5F cells. Fractionation of the intracellular products revealed that accurate processing to somatostatin-14 (SS-14) was not affected by any of the mutations. Examination of the secreted products showed no reduction in processing efficiency, indicating that none of the mutations blocked sorting from constitutive into regulated secretion. Finally, we examined the response to two separate secretogogues, cAMP and 12-O-tetradecanoylphorbol-13-acetate (TPA). Clones expressing two of the three mutant precursors displayed the same stimulation of SS-14 secretion by exogenously administered cAMP and TPA as cells expressing wild-type rPPSS, indicating that targeting specifically to the secretory pathway, or pathways, responsive to cAMP and TPA was not disrupted. However, cells expressing the mutant precursor containing a substitution of the amino-terminal 34 residues of rPPSS by the amino terminus of the vesicular stomatitis virus G protein displayed greatly reduced stimulation of SS-14 secretion by TPA, with a less than compensatory increase in response to cAMP, when compared to cells expressing wild-type rPPSS. In conjunction with our previous studies with anglerfish preprosomatostatins, we conclude that 1) the sorting signal(s) in rPPSS necessary for cAMP-responsive secretion are redundant and probably reside within both mature peptide regions and extrapeptide regions; 2) two or more distinct regulated secretory pathways utilized by secreted peptides can be demonstrated in transfected endocrine cells and targeting to these pathways can be separately mediated by at least two different types of sorting signals within the neuropeptide precursor itself; and 3) pro-region conformation plays little role in prosomatostatin-processing site recognition.
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PMID:Multiple preprosomatostatin sorting signals mediate secretion via discrete cAMP- and tetradecanoylphorbolacetate-responsive pathways. 168 Aug 62

We studied the effects of oxyntomodulin (OXM), of its C-terminal (19-37) fragment (OXM (19-37)) and of glucagon (GLU) on somatostatin release, cyclic AMP accumulation and inositol phosphate turnover in somatostatin-secreting RIN T3 cells in culture. Rapid changes in cellular free Ca2+ were also measured using fura-2. Carbachol was used as a control test agent for the parameters involving the inositol phosphate/Ca2+ cascade. OXM, GLU and OXM (19-37) were all able to stimulate somatostatin release with relative ED50 of approx. 1, 22 and 45, respectively. OXM and GLU stimulated cyclic AMP levels with relative ED50 of approx. 1 and 30, respectively, whereas OXM (19-37) was totally ineffective on this parameter. In contrast to carbachol, none of the peptides significantly modified the inositol phosphate turnover or induced rapid changes in cellular free Ca2+. We conclude that the RIN T3 cells contain a receptor-cyclic AMP system similar to that found in gastric mucosa and that this system is linked to somatostatin release. Another receptor-second messenger mechanism linked to somatostatin release is triggered by the (19-37) fragment. This mechanism is not the inositol phosphate/Ca2+ cascade triggered in the same cells by cholinergic agents.
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PMID:Oxyntomodulin and related peptides control somatostatin secretion in RIN T3 cells. 168 68

To investigate the relationship between surface ganglioside expression and pancreatic islet cell differentiation, we examined the function of five rat insulinoma (RIN-m5F) sublines A4, A6, A7, A10, and A12 selected for increased expression of A2B5-reactive gangliosides, as well as a subline AlGh, low in A2B5- but high in 3G5-reactive ganglioside expression. Class I major histocompatibility (MHC) protein expression was also measured in the sublines because of our previous finding that class I proteins were preferentially expressed on human insulinoma tissue compared with differentiated islet cells. In comparison with parental RIN-m5F cells, subline A12 displayed a 7.6-fold increase in A2B5 expression and a 3.4-fold increase in the number of A2B5 positive cells (81% vs. 24%). A2B5 expression was increased 1.3-, 5.4-, 5.4-, and 6.9-fold on A4, A6, A7, and A10 sublines, respectively. In contrast, AlGh cells, which had comparable A2B5 expression to parental cells, displayed a 2.9-fold increase in 3G5 expression and an 8-fold increase in the number of 3G5 positive cells (72% vs. 9%). Insulin secretion and content increased with increasing A2B5 expression. On day 2, secretion was 1.2-, 8-, 8-, 21-, and 18-fold higher and content 1.4-, 4-, 5-, 26-, and 33-fold higher for A4, A6, A7, A10, and A12 cells, respectively, compared to parental cells. There was a direct association between expression of A2B5 and the level of insulin messenger RNA (mRNA) in the sublines. Neither glucagon nor somatostatin was detected in any subline. The AlGh subline secreted and contained less insulin than parental cells. Fully differentiated adult rat islet cells, the majority of which are beta-cells, contained a lower number of 3G5 (12%) than A2B5 (57%) positive cells. Compared to parental cells, class I MHC proteins were decreased 4-fold on A12 cells, but increased 1.5-fold on AlGh cells. We conclude that, at least in RIN cells, the expression of A2B5-reactive ganglioside expression is associated directly, and class I MHC protein expression indirectly, with beta-cell differentiation.
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PMID:A2B5-reactive ganglioside expression is an index of differentiation in rat insulinoma (RIN) cells. 215 72

The function of clonal insulin-secreting RINm5F cells was compared with parent tumoural B-cells from radiation-induced NEDH rat insulinoma and a RINm5Fr cell line established following transplantation of RINm5F cells in NEDH rat. After 3 days culture, tumoural B-cells contained 156 micrograms insulin/10(6) cells and released 57-82 ng insulin/10(6) cells/h during acute incubations at 2.6 mM Ca2+. RINm5F cells contained 0.56 ng insulin/10(6) cells and released 62-181 pg insulin/10(6) cells/h. Unlike tumoural B-cells, secretion was stimulated 1.7-2.4-fold by 5 mM theophylline, 1 microM glucagon, 25 mM K+, or 7.6 mM Ca2+. Subscapular transplantation of cultured tumoural B-cells or RINm5F cells (2.8 X 10(7) cells/rat) resulted in an encapsulated tumour associated with progressive hyperinsulinaemia, hypoglycaemia and death by 28-46 days and 39-44 days respectively. A RINm5Fr cell line was established in culture from a 19 g tumour 20 days after transplantation. RINm5Fr cells contained 2.69 ng insulin/10(6) cells and released 385-1,017 pg insulin/10(6) cells/h (p less than 0.001 compared with RINm5F cells). Secretion was not augmented by glucose, but at 16.7 mM glucose it was stimulated 1.5-fold by 5 mM theophylline, 1.6-fold by 1 microM glucagon and inhibited 0.6-fold by somatostatin. At 5.6 mM glucose, secretion was stimulated 1.6-fold by 25 mM K+, 2.5-fold by 7.8 mM Ca2+, 2.1-fold by 20 microM A23187, 1.5-fold by 20 mM leucine and 1.4-fold by 100 microM tolbutamide. These data indicate fundamental differences between rat insulinoma cells and the derived RIN cell lines. Transplantation is a useful means to enhance the function of RINm5F cells.
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PMID:Insulin secretion in vivo and in vitro from transplantable NEDH rat insulinoma and derived clonal RINm5F cell line. 282 34

Current evidence suggests that a multipotential endodermal progenitor cell may give rise to all islet cell phenotypes. We characterized two hormone-producing rat islet (RIN) cell lines derived from a radiation-induced islet tumor by immunocytochemistry, Northern blot analysis, and radioimmunoassay of secreted hormone. Using antisera to glucagon, insulin, and somatostatin, we found that less than 15% of the cells in any of these three islet cell lines contained immunopositive cells. The number of cells staining for the hormone correlated with mRNA levels and immunoreactive secreted hormones. Sodium butyrate, a short-chain aliphatic fatty acid, slowed cell growth and increased dramatically the percentage of cells staining for glucagon and insulin. The increase in immunopositive cells was accompanied by an increase in glucagon and insulin mRNAs and secreted glucagon and insulin. These observations indicate that sodium butyrate increases glucagon and insulin gene expression by recruiting previously immunonegative cells to produce hormone. The relationship of DNA synthesis and hormone production was assessed by pulse-labeling RIN cells with [3H]thymidine, which was followed by autoradiography and immunocytochemistry. [3H]thymidine incorporation was observed in a lower percentage of immunopositive compared with immunonegative cells. Furthermore, sodium butyrate reduced the number of [3H]thymidine-labeled cells and increased the number of immunopositive cells. These observations suggest that sodium butyrate differentiates the islet cells and thereby increases the expression of the glucagon and insulin genes.
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PMID:Sodium butyrate increases glucagon and insulin gene expression by recruiting immunocytochemically negative cells to produce hormone. 284 9

Spleen cells from acutely diabetic (AD) and non-diabetic but diabetes prone (DP) BB/Wor rats lysed insulinoma target cells to a significantly greater degree than did diabetes resistant (DR) cells as determined using a 51Cr release cytotoxicity assay. There were no differences between the AD and DP groups. Lysis was not target cell specific, since somatostatin secreting RIN 14B cells, Wistar Furth leukemia cells designated LW12, PC12 cells and NK sensitive YAC-1 cells were also lysed. Lysis of all target cells was significantly reduced by pretreatment of the effector lymphocytes with antiserum to NK cells (anti-asialo GM1) and complement suggesting that NK cells mediated destruction of these cells. These data demonstrate a generalized increase in non-specific NK cell activity in BB/Wor rats. Since NK cells have been shown to mediate antibody dependent cell mediated cytotoxicity (ADCC), splenic lymphoid cells from AD rats were tested for their ability to lyse insulinoma target cells in the presence of diabetic rat sera which were demonstrated to contain islet cell surface antibodies. Three different ADCC protocols were tested but in each case the addition of serum dilutions from AD rats reduced the lysis of insulinoma cells by AD spleen cells in a dose dependent manner. This inhibition was also demonstrated when sera and effector cells from control rats were used. As a positive control, DR spleen cells were incubated with 51Cr labelled target cells that were untreated or pre-treated with anti-rat class 1 antibody (OX18). Pre-treatment of the target cells resulted in a marked increase in their subsequent lysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vitro natural killer cell activity in the spontaneously diabetic BB/Wor rat: effects of serum on lysis of insulinoma cells. 285 69


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